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<scp>Orexin‐A</scp> mediates glioblastoma proliferation inhibition by increasing ferroptosis triggered by unstable iron pools and <scp>GPX4</scp> depletion

Rengzheng Huan, Jiqin Zhang, Jianhe Yue, Sha Yang, Guoqiang Han, Yuan Cheng, Ying Xim Tan

2024Journal of Cellular and Molecular Medicine13 citationsDOIOpen Access PDF

Abstract

Glioblastoma (GBM) represents a prevalent form of primary malignant tumours in the central nervous system, but the options for effective treatment are extremely limited. Ferroptosis, as the most enriched programmed cell death process in glioma, makes a critical difference in glioma progression. Consequently, inducing ferroptosis has become an appealing strategy for tackling gliomas. Through the utilization of multi-omics sequencing data analysis, flow cytometry, MDA detection and transmission electron microscopy, the impact of orexin-A on ferroptosis in GBM was assessed. In this report, we provide the first evidence that orexin-A exerts inhibitory effects on GBM proliferation via the induction of ferroptosis. This induction is achieved by instigating an unsustainable increase in iron levels and depletion of GPX4. Moreover, the regulation of TFRC, FTH1 and GPX4 expression through the targeting of NFE2L2 appears to be one of the potential mechanisms underlying orexin-A-induced ferroptosis.

Topics & Concepts

GliomaCancer researchApoptosisFlow cytometryOrexin-AGlioblastomaCell growthBiologyCell biologyImmunologyOrexinNeuropeptideReceptorBiochemistryFerroptosis and cancer prognosisCancer-related molecular mechanisms researchEpigenetics and DNA Methylation
<scp>Orexin‐A</scp> mediates glioblastoma proliferation inhibition by increasing ferroptosis triggered by unstable iron pools and <scp>GPX4</scp> depletion | Litcius